// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause // Package tsaddr handles Tailscale-specific IPs and ranges. package tsaddr import ( "encoding/binary" "errors" "net/netip" "sync" "golang.org/x/exp/slices" "tailscale.com/net/netaddr" ) // ChromeOSVMRange returns the subset of the CGNAT IPv4 range used by // ChromeOS to interconnect the host OS to containers and VMs. We // avoid allocating Tailscale IPs from it, to avoid conflicts. func ChromeOSVMRange() netip.Prefix { chromeOSRange.Do(func() { mustPrefix(&chromeOSRange.v, "100.115.92.0/23") }) return chromeOSRange.v } var chromeOSRange oncePrefix // CGNATRange returns the Carrier Grade NAT address range that // is the superset range that Tailscale assigns out of. // See https://tailscale.com/kb/1015/100.x-addresses. // Note that Tailscale does not assign out of the ChromeOSVMRange. func CGNATRange() netip.Prefix { cgnatRange.Do(func() { mustPrefix(&cgnatRange.v, "100.64.0.0/10") }) return cgnatRange.v } var ( cgnatRange oncePrefix ulaRange oncePrefix tsUlaRange oncePrefix tsViaRange oncePrefix ula4To6Range oncePrefix ulaEph6Range oncePrefix serviceIPv6 oncePrefix ) // TailscaleServiceIP returns the IPv4 listen address of services // provided by Tailscale itself such as the MagicDNS proxy. // // For IPv6, use TailscaleServiceIPv6. func TailscaleServiceIP() netip.Addr { return netaddr.IPv4(100, 100, 100, 100) // "100.100.100.100" for those grepping } // TailscaleServiceIPv6 returns the IPv6 listen address of the services // provided by Tailscale itself such as the MagicDNS proxy. // // For IPv4, use TailscaleServiceIP. func TailscaleServiceIPv6() netip.Addr { serviceIPv6.Do(func() { mustPrefix(&serviceIPv6.v, TailscaleServiceIPv6String+"/128") }) return serviceIPv6.v.Addr() } const ( TailscaleServiceIPString = "100.100.100.100" TailscaleServiceIPv6String = "fd7a:115c:a1e0::53" ) // IsTailscaleIP reports whether ip is an IP address in a range that // Tailscale assigns from. func IsTailscaleIP(ip netip.Addr) bool { if ip.Is4() { return CGNATRange().Contains(ip) && !ChromeOSVMRange().Contains(ip) } return TailscaleULARange().Contains(ip) } // TailscaleULARange returns the IPv6 Unique Local Address range that // is the superset range that Tailscale assigns out of. func TailscaleULARange() netip.Prefix { tsUlaRange.Do(func() { mustPrefix(&tsUlaRange.v, "fd7a:115c:a1e0::/48") }) return tsUlaRange.v } // TailscaleViaRange returns the IPv6 Unique Local Address subset range // TailscaleULARange that's used for IPv4 tunneling via IPv6. func TailscaleViaRange() netip.Prefix { // Mnemonic: "b1a" sounds like "via". tsViaRange.Do(func() { mustPrefix(&tsViaRange.v, "fd7a:115c:a1e0:b1a::/64") }) return tsViaRange.v } // Tailscale4To6Range returns the subset of TailscaleULARange used for // auto-translated Tailscale ipv4 addresses. func Tailscale4To6Range() netip.Prefix { // This IP range has no significance, beyond being a subset of // TailscaleULARange. The bits from /48 to /104 were picked at // random. ula4To6Range.Do(func() { mustPrefix(&ula4To6Range.v, "fd7a:115c:a1e0:ab12:4843:cd96:6200::/104") }) return ula4To6Range.v } // TailscaleEphemeral6Range returns the subset of TailscaleULARange // used for ephemeral IPv6-only Tailscale nodes. func TailscaleEphemeral6Range() netip.Prefix { // This IP range has no significance, beyond being a subset of // TailscaleULARange. The bits from /48 to /64 were picked at // random, with the only criterion being to not be the conflict // with the Tailscale4To6Range above. ulaEph6Range.Do(func() { mustPrefix(&ulaEph6Range.v, "fd7a:115c:a1e0:efe3::/64") }) return ulaEph6Range.v } // Tailscale4To6Placeholder returns an IP address that can be used as // a source IP when one is required, but a netmap didn't provide // any. This address never gets allocated by the 4-to-6 algorithm in // control. // // Currently used to work around a Windows limitation when programming // IPv6 routes in corner cases. func Tailscale4To6Placeholder() netip.Addr { return Tailscale4To6Range().Addr() } // Tailscale4To6 returns a Tailscale IPv6 address that maps 1:1 to the // given Tailscale IPv4 address. Returns a zero IP if ipv4 isn't a // Tailscale IPv4 address. func Tailscale4To6(ipv4 netip.Addr) netip.Addr { if !ipv4.Is4() || !IsTailscaleIP(ipv4) { return netip.Addr{} } ret := Tailscale4To6Range().Addr().As16() v4 := ipv4.As4() copy(ret[13:], v4[1:]) return netip.AddrFrom16(ret) } // Tailscale6to4 returns the IPv4 address corresponding to the given // tailscale IPv6 address within the 4To6 range. The IPv4 address // and true are returned if the given address was in the correct range, // false if not. func Tailscale6to4(ipv6 netip.Addr) (netip.Addr, bool) { if !ipv6.Is6() || !Tailscale4To6Range().Contains(ipv6) { return netip.Addr{}, false } v6 := ipv6.As16() return netip.AddrFrom4([4]byte{100, v6[13], v6[14], v6[15]}), true } func mustPrefix(v *netip.Prefix, prefix string) { var err error *v, err = netip.ParsePrefix(prefix) if err != nil { panic(err) } } type oncePrefix struct { sync.Once v netip.Prefix } // NewContainsIPFunc returns a func that reports whether ip is in addrs. // // It's optimized for the cases of addrs being empty and addrs // containing 1 or 2 single-IP prefixes (such as one IPv4 address and // one IPv6 address). // // Otherwise the implementation is somewhat slow. func NewContainsIPFunc(addrs []netip.Prefix) func(ip netip.Addr) bool { // Specialize the three common cases: no address, just IPv4 // (or just IPv6), and both IPv4 and IPv6. if len(addrs) == 0 { return func(netip.Addr) bool { return false } } // If any addr is more than a single IP, then just do the slow // linear thing until // https://github.com/inetaf/netaddr/issues/139 is done. for _, a := range addrs { if a.IsSingleIP() { continue } acopy := append([]netip.Prefix(nil), addrs...) return func(ip netip.Addr) bool { for _, a := range acopy { if a.Contains(ip) { return true } } return false } } // Fast paths for 1 and 2 IPs: if len(addrs) == 1 { a := addrs[0] return func(ip netip.Addr) bool { return ip == a.Addr() } } if len(addrs) == 2 { a, b := addrs[0], addrs[1] return func(ip netip.Addr) bool { return ip == a.Addr() || ip == b.Addr() } } // General case: m := map[netip.Addr]bool{} for _, a := range addrs { m[a.Addr()] = true } return func(ip netip.Addr) bool { return m[ip] } } // PrefixesContainsIP reports whether any prefix in ipp contains ip. func PrefixesContainsIP(ipp []netip.Prefix, ip netip.Addr) bool { for _, r := range ipp { if r.Contains(ip) { return true } } return false } // PrefixIs4 reports whether p is an IPv4 prefix. func PrefixIs4(p netip.Prefix) bool { return p.Addr().Is4() } // PrefixIs6 reports whether p is an IPv6 prefix. func PrefixIs6(p netip.Prefix) bool { return p.Addr().Is6() } // ContainsExitRoutes reports whether rr contains both the IPv4 and // IPv6 /0 route. func ContainsExitRoutes(rr []netip.Prefix) bool { var v4, v6 bool for _, r := range rr { if r == allIPv4 { v4 = true } else if r == allIPv6 { v6 = true } } return v4 && v6 } var ( allIPv4 = netip.MustParsePrefix("0.0.0.0/0") allIPv6 = netip.MustParsePrefix("::/0") ) // AllIPv4 returns 0.0.0.0/0. func AllIPv4() netip.Prefix { return allIPv4 } // AllIPv6 returns ::/0. func AllIPv6() netip.Prefix { return allIPv6 } // ExitRoutes returns a slice containing AllIPv4 and AllIPv6. func ExitRoutes() []netip.Prefix { return []netip.Prefix{allIPv4, allIPv6} } // SortPrefixes sorts the prefixes in place. func SortPrefixes(p []netip.Prefix) { slices.SortFunc(p, func(ri, rj netip.Prefix) bool { if ri.Addr() == rj.Addr() { return ri.Bits() < rj.Bits() } return ri.Addr().Less(rj.Addr()) }) } // FilterPrefixes returns a new slice, not aliasing in, containing elements of // in that match f. func FilterPrefixesCopy(in []netip.Prefix, f func(netip.Prefix) bool) []netip.Prefix { var out []netip.Prefix for _, v := range in { if f(v) { out = append(out, v) } } return out } // IsViaPrefix reports whether p is a CIDR in the Tailscale "via" range. // See TailscaleViaRange. func IsViaPrefix(p netip.Prefix) bool { return TailscaleViaRange().Contains(p.Addr()) } // UnmapVia returns the IPv4 address that corresponds to the provided Tailscale // "via" IPv4-in-IPv6 address. // // If ip is not a via address, it returns ip unchanged. func UnmapVia(ip netip.Addr) netip.Addr { if TailscaleViaRange().Contains(ip) { a := ip.As16() return netip.AddrFrom4(*(*[4]byte)(a[12:16])) } return ip } // MapVia returns an IPv6 "via" route for an IPv4 CIDR in a given siteID. func MapVia(siteID uint32, v4 netip.Prefix) (via netip.Prefix, err error) { if !v4.Addr().Is4() { return via, errors.New("want IPv4 CIDR with a site ID") } viaRange16 := TailscaleViaRange().Addr().As16() var a [16]byte copy(a[:], viaRange16[:8]) binary.BigEndian.PutUint32(a[8:], siteID) ip4a := v4.Addr().As4() copy(a[12:], ip4a[:]) return netip.PrefixFrom(netip.AddrFrom16(a), v4.Bits()+64+32), nil }